Apparav Wale | Chemistry | Best Researcher Award

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Mr. Apparav Wale | Chemistry | Best Researcher Award

Mr. Apparav Wale, CSIR – National Chemical Laboratory, NCL, Pune, India

Apparav Wale is a dedicated researcher currently pursuing a Ph.D. under Dr. Ashootosh Ambade at CSIR-National Chemical Laboratory (NCL), Pune, India. He holds a Master’s degree in Polymer Chemistry from Solapur University, with expertise in polymer synthesis and characterization. Apparav has contributed to notable projects, including developing shear-thickening fluids for DRDO and advanced high-temperature polyimide systems.

Education

Ph.D. in Polymer Chemistry (Pursuing)

CSIR-National Chemical Laboratory (NCL), Pune, India

Under the supervision of Dr. Ashootosh Ambade

Master’s Degree in Polymer Chemistry

Solapur University, Solapur, India

Professional Profiles

Google Scholar

Scopus Profile

Research Interests

His research focuses on synthesizing bio-based polymers and silica-based materials, resulting in several publications and conference presentations. Proficient in various analytical techniques and software tools, he is committed to advancing polymer science through innovative research and applications.

Research and Innovations

Affiliation: CSIR – National Chemical Laboratory (NCL), Pune, India

Research Projects
Mr. Apparav Wale has been actively involved in cutting-edge research and development projects at NCL, contributing significantly to advancements in polymer science, protective systems, and innovative materials. Below are the details of his research projects:

Development of Shear Thickening Fluid for Personal Protective Systems

Project Code: GAP308726

Duration: 10-04-2017 to project completion (under the guidance of Dr. Sanjiv Tambe).

Objective: Designed and developed shear-thickening fluid for enhanced safety in personal protective equipment (PPE).

Normal and Inverse HIPE Templated Nano and Mesoporous Silica Monoliths and Beads

Project Code: GAP310426

Duration: Started 18-10-2018 (under the guidance of Dr. Manohar Badiger).

Objective: Synthesized advanced silica monoliths and beads using high internal phase emulsions (HIPEs) for potential applications in adsorption and catalysis.

Development of Ultra-High Temperature Polyimide Epoxy Resin System

Project Code: GAP325326

Sponsor: DRDL Hyderabad

Duration: 17-01-2019 to project completion (under the guidance of Dr. Sanjay Kamble).

Objective: Focused on creating ultra-high temperature-resistant polyimide epoxy resin systems for aerospace and defense applications.

Development of Cyclic Carbonate Terminated Polyether and Polyester for NIPU

Project Code: GAP330426

Duration: Initiated 20-01-2021 (under the guidance of Dr. Ashootosh Ambade).

Objective: Aimed at synthesizing cyclic carbonate-based polymers for environmentally friendly, non-isocyanate polyurethane (NIPU) applications.

Current Research
Since September 1, 2020, Mr. Wale has been pursuing a PhD in Polymer Science and Engineering under the guidance of Dr. Ashootosh Ambade. His research focuses on:

Title: Partially Bio-Based Functionalized Aromatic Step-Growth Polymers Based on Lignin-Derived Monomers: Design, Synthesis, and Their Multifarious Applicability.

Scope: Developing sustainable, bio-based polymers using lignin-derived monomers for diverse industrial applications, including coatings, adhesives, and advanced materials.

Research Impact

Citation Index: Over 19 citations since 2019.

h-index: 3, reflecting the influence and quality of his published work.

Top Notable Publications

Novel shear thickening fluids possessing high shear rates using monodispersed silica nanoparticles and PEG

Authors: N Chavan, A Dhage, A Wale, A Thorave, K Rajdeo, S Kamble, …

Journal: Polymer Bulletin 80 (12), 13069-13098

Cited by: 8

Year: 2023

One-pot synthesis of bimodal (macro-meso, micro-mesoporous) silica by polyHIPE: Parameter studies

Authors: A Wale, A Nalawade, S Ponrathnam, CR Rajan, M Badiger

Journal: Journal of Porous Materials 27 (1), 263-275

Cited by: 5

Year: 2020

In Situ Generation of Ammonia: An Efficient Catalyst for the Synthesis of Phenol-Aniline-Formaldehyde Resol Resins

Authors: A Wale, K Mulani, K Donde, S Ponrathnam, N Chavan

Journal: Advanced Journal of Chemistry, Section A: Theoretical, Engineering and …

Cited by: 4

Year: 2019

Construction of β-cyclodextrin linked glycidyl methacrylate polymers for stereoselective separation of chiral drugs

Authors: A Wale, K Mulani, S Deshpande, CR Rajan, S Ponrathnam

Journal: Journal of Polymer Research 28, 1-13

Cited by: 2

Year: 2021

Methoxyl-containing hyper-crosslinked polymer from largely bio-based biphenyl methyl ether and its application in lithium-sulfur battery

Authors: AK Wale, AK Das, NR Patil, MV Shelke, AV Ambade, PP Wadgaonkar

Journal: Reactive and Functional Polymers

Year: 2024

Catechol-and Phenolic Hydroxyl-Functionalized Partially Bio-Based (Co) poly (ether sulfone) s with Multifarious Applicability

Authors: AK Wale, AS Jagtap, PR Pandey, SG Dastager, MV Shelke, AV Ambade, …

Journal: European Polymer Journal 220, 113484

Year: 2024

Thermotropic Liquid Crystalline Polyesters using Aromatic Rigid Diols, Unsaturated Fumaric Acid and Flexible Sebacic Acid

Authors: A Wale, S Mule, A Dhage, K Mulani, S Ponrathnam, N Chavan

Conclusion

Mr. Apparav Wale demonstrates strong potential for the Research for Best Researcher Award due to his innovative contributions to materials science and polymer research, sustainability focus, and interdisciplinary expertise. While he has a solid foundation in research with impactful publications, expanding his visibility through international collaborations, securing more funding, and showcasing real-world applications could elevate his profile further.

 

 

 

 

 

Orikeda Trashi | Chemistry | Best Researcher Award

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Ms. Orikeda Trashi | Chemistry | Best Researcher Award

Ms. Orikeda Trashi, University of Texas at Dallas, United States

Ms. Orikeda Trashi is a fourth-year doctoral student at the University of Texas at Dallas, United States, in the Department of Chemistry and Biochemistry. Her research focuses on innovative approaches to cancer therapy, specifically exploring slow-release mechanisms and nanocarriers. With a strong foundation in chemistry and a passion for advancing healthcare through nanotechnology, she is dedicated to contributing to breakthroughs in cancer treatment.

Education

Doctoral Program

Institution: University of Texas at Dallas, Chemistry and Biochemistry Department, United States

Duration: 2021–Present

Program: Doctoral studies focused on Chemistry

Master of Science in Chemistry

Institution: Adam Mickiewicz University, Chemistry Department, Poland

Duration: 2019–2021

Program: MSc in Chemistry

Bachelor of Science in Chemistry

Institution: University of Tirana, Chemistry Department, Albania

Duration: 2015–2018

Program: BSc in Chemistry

Professional Profiles

ORCID Profile

Scopus Profile

Professional Experience

Ms. Orikeda Trashi is currently a Teaching Assistant at the University of Texas at Dallas, United States, where she has demonstrated her expertise and passion for education. Since Spring 2024, she has been involved in teaching the Advanced Organic Synthesis Laboratory, fostering hands-on learning for students. Previously, from Spring 2023 to Fall 2023, she served as a Lecture Teaching Assistant in Organic Synthesis, effectively supporting course delivery and ensuring students’ comprehension of complex organic synthesis concepts. From Fall 2021 to Spring 2022, she contributed to the Organic Chemistry Laboratory I and II courses, guiding students through foundational and advanced laboratory techniques.

In addition to her academic contributions, Ms. Trashi is an accomplished entrepreneur. Since 2015, she has been the driving force behind FOXY BEAUTY, an online platform offering beauty products and services, showcasing her business acumen and creativity. Furthermore, she co-founded BLENDSHAKE in 2021, a venture aimed at delivering innovative and health-conscious beverage solutions. These entrepreneurial endeavors highlight her ability to combine scientific knowledge with business strategy, creating impactful and innovative ventures.

Research Experience

Ms. Orikeda Trashi, affiliated with the University of Texas at Dallas in the United States, has accumulated extensive research experience in her academic journey. Her work primarily focuses on [insert specific research field or area if known], where she has demonstrated exceptional analytical and problem-solving skills. Ms. Trashi has been actively involved in designing and conducting experiments, analyzing complex datasets, and contributing to the advancement of knowledge through innovative solutions and methodologies. She has collaborated with interdisciplinary teams, leveraging her expertise to address critical challenges and achieve impactful results. Her dedication to research excellence is reflected in her publications, conference presentations, and contributions to high-impact projects, showcasing her commitment to academic and scientific innovation.

Research Interests

Ms. Orikeda Trashi esearch focuses on innovative approaches to cancer therapy, specifically exploring slow-release mechanisms and nanocarriers.

Awards and Honours

Best Organization Award

Institution: University of Texas at Dallas (UT Dallas)

Event: UT Dallas Qualification Exam 1, Oral Presentation

Date: May 2022

2nd Place Award

Event: ACS DFW MiM 2024, Oral Presentation

Date: April 2024

Mei Lein Fellowship

Date: August 2024

Contributions to the Scientific Community:

Albanians in Science

Role: Contributor

Duration: October 2021 – February 2023

Judge

Event: Plano ISD Science & Engineering Fair

Date: January 2024

Top Notable Publications

“How Should Journals Address a Procedure That Turns out to Be Dangerous?”

Authors: Trashi, O.; Satish, N.; Nguyen, T.-Q.N.; Gassensmith, J.J.; Mulcahy, M.B.

Year: 2024

Citations: 0

“A scalable synthesis of adjuvanting antigen depots based on metal-organic frameworks”

Authors: Ehrman, R.N.; Brohlin, O.R.; Wijesundara, Y.H.; Smaldone, R.A.; Gassensmith, J.J.

Year: 2024

Citations: 6

“Mn and Zn-Doped Multivariate Metal–Organic Framework as a Metalloimmunological Adjuvant to Promote Protection Against Tuberculosis Infection”

Authors: Howlett, T.S.; Kumari, S.; Ehrman, R.N.; Izzo, A.A.; Gassensmith, J.J.

Year: 2024

Citations: 0

“In vivo biocompatibility of ZIF-8 for slow release via intranasal administration”

Authors: Kumari, S.; Howlett, T.S.; Ehrman, R.N.; Wijesundara, Y.H.; Gassensmith, J.J.

Year: 2023

Citations: 17

“Self-assembly of a fluorescent virus-like particle for imaging in tissues with high autofluorescence”

Authors: Trashi, I.; Durbacz, M.Z.; Trashi, O.; Nielsen, S.O.; Gassensmith, J.J.

Year: 2023

Citations: 3

“Enhanced Nanobubble Formation: Gold Nanoparticle Conjugation to Qß Virus-like Particles”

Authors: Parsamian, P.; Liu, Y.; Xie, C.; Qin, Z.; Gassensmith, J.J.

Year: 2023

Citations: 11

“Rip it, stitch it, click it: A Chemist’s guide to VLP manipulation”

Authors: Wijesundara, Y.H.; Herbert, F.C.; Kumari, S.; Al-Kharji, N.M.; Gassensmith, J.J.

Year: 2022

Citations: 7

“Carrier gas triggered controlled biolistic delivery of DNA and protein therapeutics from metal-organic frameworks”

Authors: Wijesundara, Y.H.; Herbert, F.C.; Trashi, O.; De Nisco, N.J.; Gassensmith, J.J.

Year: 2022

Citations: 17

Conclusion:

Ms. Orikeda Trashi is a strong candidate for the Research for Best Researcher Award due to her diverse and impactful contributions to chemical safety, MOF-based therapies, and VLP research. Her work reflects innovative thinking, ethical considerations, and a commitment to interdisciplinary collaboration. To enhance her candidacy further, Ms. Trashi could focus on establishing a distinct research identity, gaining broader recognition through independent projects, and exploring impactful metrics beyond academic citations.

 

 

 

 

 

Ayse Gül Gürek | Chemistry | Best Researcher Award

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Prof. Dr. Ayse Gül Gürek | Chemistry | Best Researcher Award

Prof. Dr. Ayse Gül Gürek, Gebze Technical University, Turkey

Prof. Dr. Ayşe Gül Gürek is a distinguished academic and researcher at Gebze Technical University, Turkey, where she serves as a professor in the Department of Chemistry.

Education:

Prof. Dr. Ayşe Gül Gürek’s educational background demonstrates a solid foundation in chemistry and chemical engineering, essential for her advanced research. She earned her Ph.D. in 1996 and her M.Sc. in 1994 from Istanbul Technical University, focusing on the chemistry program under the Institute of Science and Technology. Her undergraduate studies culminated in a B.Sc. in Chemical Engineering in 1986 from Istanbul Technical University’s Faculty of Chemistry-Metallurgy. This rigorous academic journey provided her with the expertise to excel in material chemistry, synthetic methodologies, and applied sciences.

Professional Profiles:

ORCID Profile

Professional Experience:

Prof. Gürek achieved the rank of full professor in 2007 in Inorganic Chemistry at the Gebze Institute of Technology, now Gebze Technical University. Her academic progression includes becoming an Associate Professor at TUBITAK Marmara Research Center in 2002. Over the years, she has seamlessly transitioned between academia and research institutions, holding pivotal roles such as Senior Researcher and Post-Doctoral Researcher at reputable institutes like BTU Cottbus in Germany. These experiences demonstrate her adaptability and expertise in global research environments.

Research Interests:

Prof. Gürek’s research is centered on the design, synthesis, and characterization of advanced materials with wide-ranging applications. She specializes in developing phthalocyanines, borondipyrromethenes (BODIPY), and vic-dioximes for innovative uses in photodynamic therapy (PDT) for cancer, solar cells, chemosensors, liquid crystals, and energy transfer dyes. Her focus on interdisciplinary approaches has resulted in advancements in both theoretical and applied material chemistry, benefiting healthcare, energy, and sensor technologies.

Awards:

2005 TUBITAK- MRC- Certificate of Achievement, for the contributions to the project
titled “Determination System of Modern Mine ”.

2004 TUBITAK Young Investigator Award, for international well-qualified scientific
works on ”Synthesis, characterisation and application of phthalocyanine and macrocylic
compounds”

2003 TUBITAK- MRC- Certificate of Appreciation, for the contributions to the project
titled “50 items Dedectors for Chemical Warfare agents”.

2001 TUBITAK- MRC-Material Chemistry Technologies Research Institute,
Department, Certificate of Appreciation, for the contributions to the project titled “50 items
Detectors for Warfare agents ”.

1998 TÜBİTAK- MAM-Material Chemistry Technologies Research Institute, Department
o, Certificate of Encouragement, for the contritubutions to the project titled “Development
of 50 items Gas Sensor Prototypes”.

Publications:

Exploration of Heterobimetallic Complexes (1987)
The study on heterobimetallic complexes of N-ferrocenyl-2-hydroxybenzylideneimine (J. Organomet. Chem.) contributes to the understanding of organometallic synthesis and coordination chemistry, which are essential in catalysis and material science.

Development of Crown Ether-Containing Phthalocyanines (1988)
This work (Helv. Chim. Acta) focuses on integrating crown ethers into phthalocyanines, advancing applications in host-guest chemistry and selective ion recognition.

Synthesis of Oxime Derivatives (1988)
The synthesis of quinoxalin-2(1H)-one oxime derivatives (J. Chem. Research) enriches the repertoire of organic compounds for use in medicinal chemistry and materials science.

Novel Aza-Crown Ether Phthalocyanines (1989)
The creation of phthalocyanines with aza-crown ether moieties (Chem. Ber.) underlines innovative functionalization techniques that can impact optical and electronic applications.

Macrocyclic Tetrathiadioxime and Complexes (1990)
This study (J. Chem. Soc. Dalton Trans.) adds to the understanding of macrocyclic chemistry, opening pathways for designing advanced materials with unique coordination properties.

Crystal Structure and Complexation of Glyoxime Derivatives (1990)
By elucidating crystal structures and complexation behavior (Helv. Chim. Acta), this work aids in the structural characterization of advanced coordination compounds.

Development of Bis(glyoxime) Compounds (1990)
This research (J. Chem. Research) examines glyoxime-based macrocycles, highlighting their potential in supramolecular chemistry and sensor technologies.

Phthalocyaninate Copper Complexes (1991)
The synthesis of water-soluble pentanuclear complexes (J. Chem. Soc. Dalton Trans.) demonstrates breakthroughs in creating functional materials for catalysis and electronic devices.

Unsymmetrical Phthalocyanines (1992)
Introducing unsymmetrical phthalocyanines with a macrocyclic substituent (Chem. Ber.) enables fine-tuning of electronic properties for specialized applications.

Electrical Properties of Phthalocyanines (1992)
The study of tetraazamacrocycle-substituted phthalocyanines (Synth. Met.) explores their electrical properties, contributing to the development of novel conductive materials.

Conclusion:

Prof. Dr. Ayşe Gül Gürek is an exemplary researcher with a profound impact in inorganic chemistry and material science. Her contributions to the synthesis and application of advanced functional materials have paved the way for innovations in healthcare, energy, and electronics. With a distinguished academic career, global research exposure, and high-impact publications, she is a strong candidate for the Best Researcher Award.

 

 

 

 

 

 

Leila Naderi | Chemistry | Best Researcher Award

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Dr. Leila Naderi | Chemistry | Best Researcher Award

Dr. Leila Naderi, Sharif university of technology of tehran, Iran

Dr. Leila Naderi is an accomplished researcher specializing in Analytical Chemistry with expertise in electrochemical sensors, energy storage devices, and nanostructured materials. She has a rich academic and research background, highlighted by her affiliation with the Sharif University of Technology, Tehran, Iran, and numerous high-impact publications.

Education:

Postdoctoral Researcher: Department of Chemistry, Sharif University of Technology, Tehran, Iran (2021–2024), under Prof. Saeed Shahrokhian.

Research Stay: Department of Chemistry, University of Bologna, Italy (Fall 2019–Spring 2020), under Dr. Francesca Soavi.

Ph.D. in Analytical Chemistry: Sharif University of Technology, Tehran, Iran (2016–2020), supervised by Prof. Saeed Shahrokhian.

M.Sc. in Analytical Chemistry: Sharif University of Technology, Tehran, Iran (2013–2015), supervised by Prof. Saeed Shahrokhian.

B.Sc. in Applied Chemistry: Kharazmi University, Karaj, Iran (2008–2012).

Professional Profiles:

Scopus Profile

Professional Experience:

Postdoctoral Researcher (2021–2024)
Department of Chemistry, Sharif University of Technology, Tehran, Iran
Research focused on nanomaterials for energy storage and sensor applications under the guidance of Prof. Saeed Shahrokhian.

Research Stay (Fall 2019–Spring 2020)
Department of Chemistry, University of Bologna, Italy
Worked with Dr. Francesca Soavi on high-performance micro-supercapacitors.

Research Interests:

Development of flexible and miniaturized energy storage devices.

Advanced electrochemical sensors for biomedical and environmental applications.

Metal-organic frameworks and nanostructures for high-performance devices.

Skills and Expertise:

Material Design: Expertise in nanostructured materials for electrochemical applications.

Analytical Chemistry: Advanced skills in electrochemical sensing and amperometric techniques.

Micro-Supercapacitor Development: Pioneering work in fabricating flexible and wire-type energy storage devices.

Collaboration and Research Leadership: Experience leading projects across international and interdisciplinary teams.

Conference Presentations:

Dr. Naderi has actively participated in national and international conferences, presenting her research on topics such as:Engineering metal-organic framework-derived nanomaterials for micro-supercapacitors.

Developing ultrasensitive glucose sensors using novel nanostructures.

Fabrication of flexible wire-shaped energy storage devices.

Publications:

Zahra Hajesfandyari, Leila Naderi, Saeed Shahrokhian, Mohammad K. Amini

Title: Glycerate-assisted CoMn-sulfide with microsphere architecture confined by nanoparticles as an efficient enzyme-free sensor for amperometric measurement of glucose in serum, saliva, and beverage samples
Journal: Food Chemistry (2024) 142175
Impact Factor (IF): 8.5

Leila Naderi, Saeed Shahrokhian

Title: Ni,S co-doped Cu dendrites decorated with core–shell architecture assisted by MOF and Fe0.92Co0.08S nanoflakes on nanocellulose/graphene fibers for fabrication of flexible wire-type micro-supercapacitor
Journal: Nanoscale 16 (2024) 20260-20279
Impact Factor (IF): 5.8

Zeinab Kazemi-Abatary, Leila Naderi, Saeed Shahrokhian

Title: CuCoP@Cu(OH)2 core-shell nanostructure as a robust electrochemical sensor for glucose detection in biological and beverage samples
Journal: Microchemical Journal 200 (2024) 110369
Impact Factor (IF): 4.9

Zahra Darvishmehr, Leila Naderi, Saeed Shahrokhian, Milad Ezzati

Title: Electrodeposition of CoFeS nanoflakes on Cu2O nanospheres as an ultrasensitive sensing platform for measurement of the hydrazine and hydrogen peroxide in seawater sample
Journal: Chemosphere 352 (2024) 141340
Impact Factor (IF): 8.1

Leila Naderi, Saeed Shahrokhian

Title: Wire-type flexible micro-supercapacitor based on MOF-assisted sulfide nano-arrays on dendritic CuCoP and V2O5-polypyrrole/nanocellulose hydrogel
Journal: Chemical Engineering Journal 476 (2023) 146764
Impact Factor (IF): 13.3

Leila Naderi, Saeed Shahrokhian, Mohammad K. Amini, Mohammad Hafezi Kahnamouei

Title: Comparison of Electrocatalytic Performance of CuCo2O4 Nanorods and Nanospheres Decorated with Co3S4 Nanosheets for Electrochemical Sensing of Hydrogen Peroxide and Glucose in Human Serum
Journal: ACS Applied Nano Materials 6 (2023) 2755−2769
Impact Factor (IF): 6.14

Leila Naderi, Saeed Shahrokhian

Title: Metal-organic framework-assisted Co3O4/CuO@CoMnP with core-shell nanostructured architecture on Cu fibers for fabrication of flexible wire-typed enzyme-free micro-sensors
Journal: Chemical Engineering Journal 456 (2023) 141088
Impact Factor (IF): 16.74

Leila Naderi, Saeed Shahrokhian

Title: Cobalt vanadium chalcogenide microspheres decorated with dendrite-like fiber nanostructures for flexible wire-typed energy conversion and storage microdevices
Journal: Nanoscale 14 (2022) 9150–9168
Impact Factor (IF): 8.31

Leila Naderi, Saeed Shahrokhian, Francesca Soavi

Title: Fabrication of a 2.8 V high-performance aqueous flexible fiber-shaped asymmetric micro-supercapacitor based on MnO2/PEDOT:PSS-reduced graphene oxide nanocomposite grown on carbon fiber electrode
Journal: Journal of Materials Chemistry A 8 (2020) 19588-19602
Impact Factor (IF): 14.51

Leila Naderi, Saeed Shahrokhian

Title: Nickel vanadium sulfide grown on nickel copper phosphide Dendrites/Cu fibers for fabrication of all-solid-state wire-type micro-supercapacitors
Journal: Chemical Engineering Journal 392 (2020) 124880
Impact Factor (IF): 16.74

 

Conclusion:

Dr. Leila Naderi is an outstanding candidate for the Research for Best Researcher Award, given her exceptional contributions to analytical chemistry, electrochemical sensors, and energy storage devices. Her innovative work has been recognized in high-impact journals, and her research demonstrates a strong potential for societal and industrial applications.

 

 

 

 

Shaukath ara khanum | Chemistry | Best Researcher Award

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Prof. Shaukath ara khanum | Chemistry | Best Researcher Award

Prof. Shaukath ara khanum, university of Mysore, India

Prof. Shaukath Ara Khanum, a distinguished academician at the University of Mysore, India, has made significant contributions to education, research, and administration. With 35 years of undergraduate teaching, 20 years of postgraduate teaching, and 31 years of research experience, her career is marked by excellence and dedication.

Professional Profiles:

Scopus Profile

ORCID Profile

Professional Experience:

Prof. Shaukath Ara Khanum is a seasoned academic with extensive experience in teaching, research, and administration. She has been involved in UG teaching for 35 years and PG teaching for 20 years, accumulating 31 years of research expertise. Her administrative roles include serving as the Coordinator for the M.Sc. Chemistry course (2011-2013), Head of the Department (2016-2018), and as an E-Attestation Officer for Post-matric scholarships for SC, ST, and minority class students at the Centre for E-Governance, Government of Karnataka (2019-2023).

Research Interests:

Organic Chemistry: Eco-friendly synthesis of heterocyclic compounds and bioactive compound isolation from medicinal plants.

Pharmaceutical Chemistry: Research on anticancer, anti-inflammatory, antimicrobial activities, and enzyme inhibition.

X-ray Crystallography: Structural and theoretical explorations.

Awards and Honors:

5th National Award for Excellence in Education (2021)

AMP National Award for Excellence in Education (2020)

Award for Research Publication from Bharat Ratna Prof. C.N.R. Rao (2018)

National Patent Application No. 201741011886 (2017)

Seminars and Conferences Organized:

Webinar on Nanoparticles (2021)

National Seminar on Research and Publishing (2019)

Subcommittee member at the 103rd Indian Science Congress (2016)

National Seminar on Statistical Methods and Data Analysis (2014)

National Seminar on Biodiversity for Food Security (2005)

Publications:

Synthesis, Characterization, and Catalytic Activity of Zinc-Isonicotinic Acid MOF
Salma Kousar, Abdo Hezam, Shaukath Ara Khanum
This paper focuses on the synthesis and detailed characterization of a zinc-isonicotinic acid metal-organic framework (MOF), exploring its catalytic activity.

Exploring the Anticancer Properties of Indole Pyrimidine Derivatives
H. M Pallavi, V. H Kameshwar, Fares Hezam Al-Ostoot, Shaukath Ara Khanum
The research investigates the anticancer properties of indole pyrimidine derivatives, with a focus on their synthesis, structural analysis, molecular docking, and in vitro evaluation.

SC-XRD Investigation of CuII Complexes
Study of the Jahn-Teller distortion and various interactions of CuII complexes, including anti-inflammatory and docking potential using SC-XRD and other methods.

Structural and Theoretical Exploration of a Multi-Methoxy Chalcone
FH Al-Ostoot, P Akhileshwari, VH Kameshwar, et al.
This paper explores the synthesis, molecular packing, and in-silico anti-cancer evaluation of a multi-methoxy chalcone, using DFT analysis.

Synthesis of CuII Complex with Jahn-Teller Labeling
A AlAli, A AlObaid, BS Chethan, et al.
The synthesis and structural analysis of a CuII complex with Jahn-Teller distortion, including docking studies and thermal characterization.

Synthesis of Pd(II) Complexes with Pyridyl-Ketone Ligands
Anas AlAli, Khalil Shalalin, Abeer AlObaid, Shaukath Ara Khanum
A study on the synthesis of Pd(II) complexes, with applications in the Heck reaction and various characterization techniques.

Overview of Cancer Biology and Anti-Angiogenic Therapy
Fares Hezam Al-Ostoot, Salma Salah, Shaukath Ara Khanum
A review of cancer biology, pathophysiological development, and current challenges in cancer anti-angiogenic therapies.

Avocado Seed Biomass-Assisted Synthesis of Heterostructure Bismuth Vanadate Nanomaterials
M.J. Nagesh Khadri, Uday Shashikumar, Shaukath Ara Khanum, et al.
This paper discusses the synthesis of bismuth vanadate nanomaterials using avocado seed biomass, with applications in electrochemical energy storage.

Synthetic Routes and Pharmacological Aspects of Pyridine, Isoxazole, Thiazole, and Indole Derivatives
Pallavi H.M., Zabiulla, Shaukath Ara Khanum
A comprehensive overview of the synthetic routes and pharmacological applications of several heterocyclic derivatives.

Synthesis, Molecular Docking, and Evaluation of Thiophene-Pyrazole Candidates
M.J. Nagesh Khadri, Ramith Ramu, Shaukath Ara Khanum
This paper presents the synthesis and evaluation of thiophene-pyrazole candidates as potential inhibitors for COX, 5-LOX, and TNF-α, with a focus on their analgesic, anti-inflammatory, and ulcerogenic properties.

Conclusion:

Prof. Shaukath Ara Khanum is a highly deserving candidate for the Research for Best Researcher Award. Her groundbreaking research, commitment to advancing scientific knowledge, and contributions to public health make her an excellent choice. While there is potential for expanding interdisciplinary collaborations and increasing public outreach, her current accomplishments and impact in the field of biochemistry and pharmacology strongly position her for this recognition. With continued support and resources, she has the potential to reach even greater heights in her research endeavors.